MAX2510EEI+ Maxim Integrated Products, MAX2510EEI+ Datasheet - Page 10
MAX2510EEI+
Manufacturer Part Number
MAX2510EEI+
Description
RF Receiver IC TXRX IF W/RSSI&MODLTR
Manufacturer
Maxim Integrated Products
Type
Transceiverr
Datasheet
1.MAX2510EEI.pdf
(12 pages)
Specifications of MAX2510EEI+
Package / Case
QSOP-28
Operating Frequency
600 MHz
Operating Supply Voltage
3 V
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The RSSI output provides a linear indication of the
received power level on the LIMIN input. The RSSI
monotonic dynamic range exceeds 90dB while provid-
ing better than 80dB linear range. The RSSI output
pulses current into a 330pF (typical) external filter
capacitor. The output is internally terminated to ground
with 11kΩ, and this R-C time constant sets the decay
time. The rise time is limited by the RSSI pin’s output
drive current. The rise time is typically less than 100ns
with no capacitor connected. Larger capacitor values
slow the rise time.
The I, I and Q, Q baseband signals are input to a pair
of double-balanced mixers, which are driven from a
quadrature LO source. The quadrature LO is generated
on-chip from the oscillator input present at the LO and
LO pins. The two mixers’ outputs are summed. With
quadrature baseband inputs at the I, I and Q, Q pins,
the unwanted sideband is largely canceled. The result-
ing signal from the mixers is fed through a variable-gain
amplifier (VGA) with more than 40dB of gain-adjust
range.
The VGA output is connected to a driver amplifier with
an output 1dB compression point of +2dBm. The out-
put power can be adjusted from approximately +2dBm
to -40dBm by controlling the GC pin. The resulting sig-
nal appears as a differential output on the TXOUT and
TXOUT pins.
TXOUT and TXOUT are open-collector outputs and
need external pull-up inductors to V
ation, as well as a DC block so the load does not affect
DC biasing. A shunt resistor across TXOUT and TXOUT
(100Ω typical) can be used to back terminate an exter-
nal filter, as shown in the Typical Operating Circuit.
Alternatively, a single-ended load can be connected to
TXOUT, as long as TXOUT is tied directly to V
to the Applications Information section for details.
The MAX2510 requires an external LO source for the
mixers. LO and LO are high-impedance inputs (>1kΩ).
The external LO signal is buffered internally and fed to
both the receive mixer and the LO phase shifter used
for the transmit mixers.
In a typical application, externally terminate the LO
source with a 50Ω resistor and then AC couple into LO.
Typically, the LO power range should be -13dBm to
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator
10
______________________________________________________________________________________
Received Signal-Strength Indicator
Local-Oscillator Inputs
CC
for proper oper-
Transmitter
CC
. Refer
0dBm (into 50Ω). Connect a bypass capacitor from LO
to ground. Alternatively, a differential LO source (exter-
nally terminated) can drive LO and LO through series
coupling capacitors.
To provide advanced system power management, the
MAX2510 features four operating modes that are
selected via the RXEN and TXEN pins, according to
Table 1 (supply currents assume GC = 0.5V).
In shutdown mode, all part functions are off. Standby
mode allows fastest enabling of either transmit or receive
mode by keeping the VREF generator active. This avoids
delays in stabilizing the limiter input circuitry and the off-
set correction loop. Transmit mode enables the LO
buffer, LO phase shifter, upconverter mixer, transmit
VGA, and transmit output driver amplifier. Receive mode
enables the LO buffer, downconverter mixer, limiting
amplifier, and RSSI functions.
The RXIN, RXIN port typically needs an impedance
matching network for proper connection to external cir-
cuitry, such as a filter. See the Typical Operating Circuit
for an example circuit topology. Note that the receiver
input can be driven either single-ended or differentially.
The component values used in the matching network
depend on the desired operating frequency as well as
on filter impedance. The following table indicates the
RXIN, RXIN single-ended input impedance (that is,
the impedance looking into either RXIN or RXIN). The
information in Table 2 is also plotted in the Typical
Operating Characteristics.
Table 1. Power-Supply Mode Selection
__________Applications Information
STATE
RXEN
High
High
Low
Low
STATE
TXEN
High
High
Low
Low
Shutdown
Power Management
Transmit
Standby
Receive
MODE
RX Input Matching
CURRENT (A)
TYPICAL
SUPPLY
0.5m
0.2µ
17m
14m
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